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arxiv: 2212.04378 · v1 · pith:5OVMZVUQnew · submitted 2022-12-08 · ❄️ cond-mat.mes-hall · physics.optics

Terahertz photoconductivity in bilayer graphene transistors: evidence for tunneling at gate-induced junctions

classification ❄️ cond-mat.mes-hall physics.optics
keywords junctionsbilayergraphenephotoconductivitytunnelingcontributiondevicesinterband
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Photoconductivity of novel materials is the key property of interest for design of photodetectors, optical modulators, and switches. Despite the photoconductivity of most novel 2d materials has been studied both theoretically and experimentally, the same is not true for 2d p-n junctions that are necessary blocks of most electronic devices. Here, we study the sub-terahertz photocoductivity of gapped bilayer graphene with electrically-induced p-n junctions. We find a strong positive contribution from junctions to resistance, temperature resistance coefficient and photo-resistivity at cryogenic temperatures T ~ 20 K. The contribution to these quantities from junctions exceeds strongly the bulk values at uniform channel doping even at small band gaps ~ 10 meV. We further show that positive junction photoresistance is a hallmark of interband tunneling, and not of intra-band thermionic conduction. Our results point to the possibility of creating various interband tunneling devices based on bilayer graphene, including steep-switching transistors and selective sensors.

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